Systems and methods for providing content during reduced streaming quality

ABSTRACT

Systems and methods are described herein for providing content during reduced streaming quality. Data streaming is susceptible to degradation in quality that adversely affects the delivery of content. For example, sufficient reduction in streaming quality can cause video and audio portions of a data stream to become unsynchronized. The system compares currently streamed video frames to previously received video frames to identify suitable replacement video frames for the currently streamed video frames in the event that the currently streamed video frames are affected by the sufficiently reduced streaming quality.

BACKGROUND OF THE INVENTION

The present disclosure is directed to digital content delivery, and moreparticularly, to providing content based on the quality of a data streamused to deliver the content.

SUMMARY

Streaming services are increasingly preferred over traditional contentdelivery services, such as broadcast cable and DVD rentals. Streamingservices allow users convenience and flexibility when consuming content.For example, a user who is waiting for a flight uses the Wi-Fi at theairport and a streaming service such as Netflix to watch a televisionprogram from his mobile phone. However, the content consumptionexperience is highly dependent on the quality of the wireless networkwhen content is streamed to a device. For example, the data rate atwhich wireless networks provide content items to devices may fluctuateand fail to provide users with a consistent, high-quality contentconsumption experience. For example, in densely populated areas, thedata rate provided by a Wi-Fi access point to devices may depend on thenumber of devices being serviced by the access point. The user watchinga program on Netflix while waiting at the airport may notice that, asmore travelers begin connecting their devices to the Wi-Fi network, hisstream of the program is taking more time to stop and buffer the program(e.g., the device is showing a buffering notification). In someembodiments, prioritizing providing audio over providing video duringperiods of reduced streaming quality is preferred but may cause the userto receive audio that is not synchronized with the video. Disruptions tocontent consumption due to communication network limitations arefrustrating to users and discourage them from using streaming services.In order to address these issues, a content application is provided thatprovides alternative video content during periods of reduced streamingquality that negatively affects the display of a video stream.

Systems and methods are described herein for providing content duringreduced streaming quality. In one embodiment, a device uses a contentapplication to receive a content item including video frames and audiousing a data stream. The content application determines that the qualityof streaming the video frames has reduced such that the presentation ofthe video frames and the audio are not synchronized. A previously storedvideo frame is used to replace a video frame affected by the reducedstreaming quality. The content application determines a previouslystored video frame of the video frames is similar to a currentlystreamed video frame affected by the reduced streaming quality. Based onthis determination, the content application replaces the currentlystreamed video frame of the video frames with the previously storedvideo frame while continuing to provide the audio. As such, thepreviously stored video frame is being displayed in place of anystreaming video that would otherwise have been displayed had the qualityof the data stream been sufficient.

To determine that the quality of streaming the video frames has reducedsuch that a synchronization between the video frames and the audiocannot be maintained, the content application may determine that a bitrate at which the content item is received using the data stream hasdecreased. In some embodiments, the content application monitors thedata rate or bit rate of a downlink path between a transmitter providinga content item and a device in a communication network. The contentapplication may observe trends in the downlink bit rate to determinewhen the downlink bit rate has decreased sufficiently to warrantdetermining a previously stored video frame to replace the currentlystreamed video frame affected by the decreased bit rate or identifying astored video set to replace the currently streamed video. In someembodiments, the content application uses a bit rate threshold tocompare with the bit rate of the data stream to determine that thestreaming quality is reduced such that the synchronization between thestreamed video frames and audio cannot be maintained.

In some embodiments, the content application stores previously receivedvideo frames of the content item. The stored set of video frames that isused to replace the stream of video frames is selected from thesepreviously received and stored video frames. To determine that thepreviously stored video frame of the video frames is similar to thecurrently streamed video frame, the content application may compare thecurrently streamed video frame to the stored video frames. In someimplementations, the content application compares the currently streamedvideo frame and the previously stored video frame and determines thatthe comparison indicates a continuity of a scene. For example, thecontent application may compare the scene of the currently streamedvideo frame having actors in a park to the scenes of the stored videoframes that include the park, a classroom, and a coffee shop. In someembodiments, the content application determines that a comparisonbetween the scene of the currently streamed video frame and a scene ofthe previously stored video frame indicates scene continuity. Forexample, a comparison between the scene of the currently streamed videoframe occurring in the park and a scene of a previously stored videoframe occurring in the same park indicates scene continuity because ofthe shared backdrop.

In some embodiments, the content application determines that thepreviously stored video frame is chronologically the earliest of thestored video frames that is similar to the currently streamed videoframe. The content application may compare time segments assigned toeach video frame to determine the chronological order of the frames andwhich frame is earlier than another. Replacing a currently streamedvideo frame with a similar video frame that occurred as long ago in timeas possible relative to the currently streamed video frame has thebenefit of providing a sense of progress in the video frames because thescenes are likely to look more different than scenes that occur closerin time.

To further promote nondisruptive video frame replacement that appears tothe user as if the replacement video frame or set of video frames is insynchronization with the streamed audio, the content application mayfurther base its replacement of the currently streamed video frame onthe determination that the spoken dialogue associated with the currentlystreamed video frame is not associated with a person in the previouslystored video frame. For example, the content application determines thatthe dialogue in the streamed audio that corresponds in time to thecurrently streamed video frame is spoken by a female actor. The contentapplication identifies a previously stored video frame showing a maleactor listening as being the video frame suitable for replacing thecurrently streamed video frame and being presented with the dialoguespoken by the female actor. Identifying a frame that does not share thesame speaking actor has the benefit of synchronizing a replacement videoframe with the streamed audio because there are no unsynchronized lipmovements. For example, a set of video frames having the female actoreither moving her lips in any way other than the way the viewer wouldrecognize as being synchronized with the audio would also be disruptiveto the content consumption experience.

The content application described herein may populate a video framebuffer to be accessed when streaming quality is reduced. In someembodiments, the content application receives the content item, using adata stream, for display. As the content item is received, the contentapplication causes a predetermined number of video frames immediatelypreceding a streamed video frame to be stored in a video frame buffer.For example, the content receives the currently streamed video frame(e.g., the 3,000th video frame) of a content item and stores the last500 video frames immediately preceding the currently streamed videoframe (e.g., frames 2,500-2,999) in the video frame buffer. The contentapplication compares the currently streamed video frame to each of thestored video frames in the video frame buffer. Based on this comparison,the content application identifies a frame of the stored video frames asbeing a similar video frame to the currently streamed video frame. Incase the quality of streaming is reduced the next time the currentlystreamed video frame is presented after a currently streamed video frameis received, the identified frame from the frame buffer identified asbeing similar to the currently streamed video frame may be used in placeof video frames that would otherwise have been streamed and displayedsubsequent to the currently streamed video frame, had the quality ofstreaming been sufficient for the currently streamed video frame toavoid a buffering notification.

To compare the currently streamed video frame to each stored video framein the video frame buffer, the content application may compare the sceneof the currently streamed video frame to each respective scene of thestored video frames as described for determining that a previouslystored video frame is similar to a currently streamed video frame. Whenpopulating the video frame buffer, the content application may determinethe similar frame is chronologically the earliest of the stored frames.In some embodiments, as described for replacing the currently streamedvideo frame with the previously stored video frame based on the spokendialogue associated with the currently streamed video frame, the contentapplication determines the spoken dialogue associated with the currentlystreamed video frame and identifies the similar video frame bydetermining that the spoken dialogue is not associated with a person inthe similar frame.

In some embodiments, sets of video frames in a content item arepre-curated for replacing video frames of the content when streamingquality is sufficiently reduced. The content item is divided into timesegments where a time segment may contain one or more video frames suchthat any frame within that time segment is associated with a storedvideo set. The content application causes to be stored sets of videoframes that are mapped to time segments of the content item. When thecontent application determines that the quality of streaming the videoframes has reduced such that a synchronization between the video framesand the audio cannot be maintained, the content application may identifya set of video frames to display subsequent to the currently streamedvideo frame by identifying the set of video frames to which the timesegment of the currently streamed video frame is mapped. The contentapplication causes the stored set to be displayed while continuing tostream the audio, thereby avoiding buffering notifications that are moredisruptive to the content consumption experience.

In some embodiments, the stored video sets are mapped to multiple timesegments. The content application may receive metadata for identifyingthe mapping of the stored video sets to time segments of the contentitem. For example, metadata is used to identify that a stored video setis mapped to the video frames at a 9-minute mark of a televisionprogram. In some implementations, the metadata is received through thedata stream through which the content item is received. In someembodiments, the metadata is pre-curated. The stored sets of videoframes, the metadata, or both may be streamed prior to the content itembeing streamed to the device.

A reduction in network quality may last longer than the duration of anyone mapped, stored video set. To avoid a buffering notification afterthe stored video set is played back, the content application may causethe stored video set or stored video frame to be repeatedly displayeduntil the streaming quality has sufficiently increased. In someembodiments, rather than repeating one stored video set, the contentapplication identifies a second stored video set that is also mapped tothe time segment at which the video frames are affected by reducedstreaming quality and displays both the first and second stored videosets until the streaming quality has sufficiently increased.

When the quality of streaming a content item on a wireless network hasimproved, the content application may determine that the quality ofstreaming has sufficiently improved and cause the video frames of thecontent item to be displayed normally. Accordingly, the contentapplication allows the user to, during reductions in the quality ofstreaming, view a content item without seeing obvious disruptions to thecontent consumption experience otherwise caused by bufferingnotifications.

It should be noted that the systems, methods, apparatuses, and/oraspects described above may be applied to, or used in accordance withother systems, methods, apparatuses, and/or aspects described in thisdisclosure.

BRIEF DESCRIPTION OF THE DRAWINGS

The above and other objects and advantages of the disclosure will beapparent upon consideration of the following detailed description, takenin conjunction with the accompanying drawings, in which like referencecharacters refer to like parts through and in which:

FIG. 1 shows an illustrative embodiment of providing content duringstreaming quality reduction, in accordance with at least someembodiments of the disclosure;

FIG. 2 shows a diagram of an illustrative example of packaging metadatafor mapping video frame sets, in accordance with at least someembodiments of the disclosure;

FIG. 3 shows a diagram of an illustrative example of mapping timesegments and video frames, in accordance with at least some embodimentsof the disclosure;

FIG. 4 shows a diagram of an illustrative system for providing contentduring streaming quality reduction, in accordance with at least someembodiments of the disclosure;

FIG. 5 shows a block diagram of an illustrative device, in accordancewith at least some embodiments of the disclosure;

FIG. 6 shows a block diagram of an illustrative content output system,in accordance with at least some embodiments of the disclosure;

FIG. 7 depicts a flowchart of an illustrative process for replacing avideo frame with a previously stored video frame, in accordance with atleast some embodiments of the disclosure;

FIG. 8 depicts a flowchart of an illustrative process for storing, in abuffer, video frames that are identified as being similar to a currentlystreamed video frame, in accordance with at least some embodiments ofthe disclosure; and

FIG. 9 depicts a flowchart of an illustrative process for causing to bedisplayed a video set in place of currently streamed video frames, inaccordance with at least some embodiments of the disclosure.

DETAILED DESCRIPTION OF THE DRAWINGS

FIG. 1 shows an illustrative embodiment of providing content duringstreaming quality reduction, in accordance with at least someembodiments of the disclosure. A streamed content item affected bystreaming quality reduction is shown through a timeline of cameraangles, which are represented by video frames for ease of depiction. Inone embodiment, shown through stream 107 and camera angles 101 through106, a buffering notification is shown. The content application producesthe content consumption experience depicted through stream 117 andcamera angles 111 through 116. The process performed by the contentapplication in the illustrative embodiment of FIG. 1 may be performed byhardware such as control circuitry and processing circuitry, asdescribed in the descriptions of FIGS. 5-6.

In a scene of a content item where characters portrayed by a male andfemale actor are talking to each other, the camera records video atdifferent angles depending on the camera placement at differentlocations. The video of the conversation shows the actors' mouths movingand their general body movements. In this scene, there is at least oneangle depicting the male actor and at least one angle depicting thefemale actor. Streams 107 and 117 show a scene broken up by consecutivecamera angles being presented at respective times in the course ofpresentation of the content item. Typically, a buffering message wouldbe displayed when streaming quality is insufficient, as illustrated instream 107. In some embodiments, as illustrated by stream 117, thecontent application provides alternative content in the place of thebuffering message during times of insufficient quality. The alternativecontent can be, for example, one or more video frames from the video ofthe content item, itself In some embodiments, the one or more videoframes are selected based on the camera angle and what video frames andaudio are presented at the camera angle. For example, the contentapplication compares the video frame presented at a camera angle toother video frames of the content item to find a video frame of the samescene.

As illustrated, streaming quality reduction may occur during a scenewhere the characters are having a conversation. Stream 107 follows thechronological presentation of a content item through camera angles 101through 106, including a buffering notification at camera angle 104 whenthe streaming quality reduction occurs. Stream 107 shows that thepresentation of the content item will be at camera angle 101 for 2seconds, camera angle 102 for 2 seconds, camera angle 103 for 4 seconds,camera angle 104 for 3 seconds, camera angle 105 for 1 second, andcamera angle 106 for 3 seconds. During normal display of the contentitem (e.g., the content item is displayed with sufficient streamingquality), the camera angle between camera angles 103 and 105 depicts thefemale actor speaking from another angle. Due to a reduction instreaming quality, however, camera angle 104 of the female actorspeaking is lost, and a buffering notification appears when the featuresof the present disclosure are not otherwise being used to providealternative content during times of sufficiently reduced streamingquality. In some embodiments, the streaming of video frames of a contentitem is affected during periods of streaming quality reduction, whilethe streaming of audio is unaffected. Since a lower communicationbandwidth is typically required for transmitting audio than is typicallyrequired for transmitting video, audio may be continuously received in adata stream between a transmitter of a content item and a device. Boththe buffering notification and unsynchronized video are disruptive tothe content consumption experience of a user.

When the content application is used to enhance the content consumptionexperience, the content application identifies a replacement video frameor set of video frames at a suitable angle to avoid showing bufferingnotifications when the quality of streaming is reduced. Stream 117 showsthat the presentation of the content item will be at camera angle 111for 2 seconds, camera angle 112 for 2 seconds, camera angle 113 for 4seconds, camera angle 114 for 3 seconds, camera angle 115 for 1 second,and camera angle 116 for 3 seconds. FIG. 1 depicts the replacement videoframes at camera angle 114 rather than the normally presented videoframes. The content application provides camera angle 114 from thecontent item instead of causing a disruptive buffering notification tobe displayed. Stream 117 depicts a similar chronological progression ofcamera angles as stream 107, but the content item identifies a suitablealternative camera angle to cause to be displayed when the quality ofstreaming is reduced during the display of camera angle 114.

In some embodiments, the content application replaces a currentlystreamed video frame with a previously stored video frame that thecontent application has determined to be similar to the currentlystreamed video frame. A content item is received for display. Forexample, the content application causes a movie to be received anddisplayed at a device using a data stream. The content item receivedusing the data stream is provided with synchronized video frames andaudio when the streaming quality is sufficient to maintain thissynchronization. For example, although not shown, the normally presentedvideo frames at camera angle 114 depict the female actor speaking, andthe audio is a spoken dialogue of her voice. However, the streamingquality may be sufficiently reduced such that the data stream does notprovide subsequent video frames of the female actor speaking and theaudio of her voice continues to be presented with an unchanged or frozenvideo frame of the female actor.

As referred to herein, the terms “content item” and “media asset” shouldbe understood to mean an electronically consumable user asset, such astelevision programming, as well as pay-per-view programs, on-demandprograms, Internet content (e.g., streaming content, downloadablecontent, or Webcasts), video clips, audio, playlists, electronic books,social media, applications, games, any other media, or any combinationthereof Media content items may be recorded, played, displayed oraccessed by devices. As referred to herein, “content providers” aredigital repositories, conduits, or both of media content items. Contentproviders may include cable sources, over-the-top content providers, orother sources of content.

As referred to herein, a “device” should be understood to mean anelectronic device capable of providing media content for consumptiondirectly to a user. Devices include smartphones, tablets, virtualreality headsets, televisions, any other electronic device for contentconsumption, or any suitable combination thereof As referred to herein,a “content application” includes any suitable software, hardware, orboth for implementing the features described herein. The contentapplication may be implemented either entirely or partially on a devicesuch as user device 410 of FIG. 4. When implemented partially on device410, the content application may be further partially implemented usingany other suitable equipment located either locally to device 410 orremotely from device 410. The content application, in some embodiments,functions as a platform for content delivery on a device. In suchembodiments, the content application is in either direct or indirectcommunication with one or more content providers using any suitablecommunication channels. As referred to herein, a “currently streamedvideo frame” describes a currently received or last received video framewhen the streaming quality is sufficient to maintain a synchronizationbetween streamed video frames and audio.

The content application may determine that the quality of streaming thereceived video frames of the content item has reduced such that asynchronization between the video frames and the audio cannot bemaintained (i.e., the streaming quality has sufficiently reduced). Insome embodiments, the content application determines that the bit rateof receiving the content item using the data stream has decreased todetermine that the streaming quality has sufficiently reduced. Forexample, the content application determines that the bit rate at whichthe normally presented video frames of camera angle 114 are beingreceived is 500 Mbps less than the bit rate at which the video frames ofcamera angle 113 were received. The content application may use athreshold to determine whether streaming quality has sufficientlyincreased or decreased. For example, the content application systemqualifies a sufficient increase as an increase in bit rate greater than50 Mbps and a sufficient decrease as a decrease in bit rate greater than75 Mbps. In another example, the content application considers asufficient increase in streaming quality as receiving the content itemwith a data stream having a rate of at least 500 Mbps and a sufficientdecrease in streaming quality when the data stream has a speed that islower than 500 Mbps.

The content application may determine the streaming quality has beensufficiently reduced by ways other than determining a sufficientdecrease in bit rate. In some embodiments, the content applicationrelies on user preferences to determine that the streaming quality isinsufficient. For example, the content application receives userpreferences indicating that the user requires high definition streamingquality, and when a movie cannot be streamed in high definition, thecontent application determines that the streaming quality has beensufficiently reduced. The user preferences may be directly input by theuser, or the content application may determine user preferences based onanalyzing user behavior. For example, the content application maydetermine that, on a home network, the user watches high definitioncontent items more often than standard definition content and, based onthis determination, the content application determines the userpreference for high definition content on the home network. In someembodiments, the content application relies on performance parametersspecific to the content item or content provider itself. For example, acontent provider requires that a movie be streamed on a networkconnection having a minimum bit rate, response time (e.g., low latency),any suitable parameter of network performance, or any combinationthereof.

In some embodiments, the content application determines that apreviously stored video frame of the video frames received using thedata stream is similar to a currently streamed video frame. For example,the content application determines that a previously stored video frameof camera angle 111 is similar to a currently streamed video frame ofcamera angle 114. In some embodiments, the content application storespreviously received video frames of the content item. The replacementframe that is similar to the currently streamed video frame is selectedfrom these previously received and stored frames. For example, thecontent application stores previously received video frames of cameraangles 111-113 and selects the replacement video frame when streamingquality is sufficiently reduced from these stored video frames. Thecontent application may compare the currently streamed video frames tothe stored frames to determine that a previously stored video frame issimilar to the currently streamed video frame. For example, the contentapplication compares the currently streamed video frame of the femaleactor to the stored video frames of camera angles 111-113. In someembodiments, the content application determines that a comparisonbetween the currently streamed video frame and a previously stored videoframe indicates continuity of a scene. For example, the currentlystreamed video frame of the female actor has a backdrop of dark colorsand depicts her sitting at a wooden table. A previously stored videoframe that precedes the currently streamed video frame by 6 seconds ofthe male actor depicts him sitting at a wooden table with a dark-coloredbackdrop. The content application may, to determine scene continuity,compare the time difference between when video frames are streamed,compare the color gradient between the colors of consecutive videoframes, use machine vision for identification of objects within a videoframe, use any suitable image processing technique for objectidentification, or any combination thereof to determine scenecontinuity.

The video frame selected for replacement may be determined by thecontent application to increase the likelihood that a user will notnotice that a reduction in streaming quality has caused the normallypresented video frames and the audio to be out of synchronization. Thecontent application may determine that a previously stored video frameis chronologically the earliest of the stored video frames that aresimilar to the currently streamed video frame. If video frames from bothcamera angles 111 and 113 are suitable for replacing a video frame atcamera angle 114, the content application may choose a previously storedvideo frame of camera angle 111 because the use of camera angle 111occurs chronologically earlier than the use of camera angle 113 occurs.

The content application may determine the spoken dialogue associatedwith the currently streamed video frame and that the spoken dialogue isnot associated with a person depicted in a previously stored videoframe. These determinations may also increase the likelihood that a userwill not notice that the streamed audio is out of synchronization withthe streamed video frames. For example, the normally presented videoframes of camera angle 114 are normally presented in synchronizationwith audio of the female actor. The content application may determinethat the spoken dialogue of the currently streamed video frame isassociated with the female actor. In some embodiments, the contentapplication further bases the replacement of the currently streamingvideo frame of the female actor on determining that her spoken dialogueis not associated with the male actor depicted in a previously storedvideo frame (e.g., video frames of camera angles 111 or 113).

In some embodiments, the content application populates a video framebuffer in preparation for replacing video frames. The video frame bufferis a storage for video frames as a content item is being streamed to adevice for display. In some embodiments, the content applicationpopulates the video frame buffer and identifies replacement video framesprior to a reduction in streaming quality. For example, as a user iswatching a movie streamed to his device, the content application storesa predetermined number of immediately preceding video frames to acurrently streamed video frame and compares the stored video frames tothe currently streamed video frame to identify a similar video framethat is suitable for replacing the currently streamed video frame in theevent that a reduction in streaming quality causes the received videoframes and audio to become out of synchronization at the currentlystreamed video frame.

In some embodiments, the content application receives the content itemusing a data stream. For example, a movie is transmitted to the contentapplication on a device through a Wi-Fi network. Wi-Fi is a trademarkowned by the Wi-Fi Alliance. The content application may cause apredetermined number of immediately preceding streamed video frames ofthe content item to be stored in a video frame buffer. For example, thecontent application currently receiving the 3,000th video frame forstreaming stores the last 500 video frames immediately preceding the3,000th video frame (e.g., frames 2,500-2,999) in the video framebuffer. The content application currently streaming a video frame ofcamera angle 114 may store video frames from camera angles 111-113 intothe video frame buffer. The predetermined number of video frames storedmay be determined based on user preference, device storage capacity,content provider restrictions, network bandwidth limitations, scenedelineations, or any suitable combination thereof. For example, thecontent application may analyze the video frames of the received contentitem to determine that there is scene continuity or a change in scene.The content application may use any suitable form of image processing,audio processing, or a combination thereof to recognize objects (e.g.,people, voices, inanimate objects, and scenery) that carry throughmultiple video frames comprising a scene. Once changes in the recognizedobjects cross a threshold, the content application may determine thatone scene has ended and another has begun. In some embodiments, thecontent application receives metadata of the scene delineations, variouscamera angles in a scene, and where the camera angles start and end. Forexample, the content application may determine, from scene metadata,that camera angle 111 begins at 20:00, or twenty minutes from thebeginning of the movie.

In some embodiments, the content application compares the currentlystreamed video frame to each stored video frame in the video framebuffer. The content application may compare any identifying quality ofthe respective video frames, including the contents of the video frames(e.g., the pixels that make up the images and their corresponding bitmaps), time at which the video frames were received, the audioassociated with the video frames, any suitable characteristic of a videoframe, or any combination thereof. For example, the content applicationdetermines that a stored video frame of camera angle 111 in the videoframe buffer is similar to a currently streamed video frame of cameraangle 114. In some embodiments, the content application storespreviously received video frames of the content item. The replacementframe that is similar to the currently streamed video frame is selectedfrom these previously received and stored frames. For example, thecontent application stores previously received video frames of cameraangles 111-113 and selects the replacement video frame when streamingquality is sufficiently reduced from these stored video frames. Thecontent application may compare the currently streamed video frames tothe stored frames to determine that a previously stored video frame issimilar to the currently streamed video frame. For example, the contentapplication compares the currently streamed video frame of the femaleactor to the stored video frames of camera angles 111-113. In someembodiments, the content application determines that a comparisonbetween the currently streamed video frame and a previously stored videoframe indicates scene continuity. For example, the currently streamedvideo frame of the female actor has a backdrop of dark colors anddepicts her sitting at a wooden table. A previously stored video framethat precedes the currently streamed video frame by 6 seconds of themale actor depicts him sitting at a wooden table with a dark-coloredbackdrop. The content application may, to determine scene continuity,compare the time difference between when video frames are streamed,compare the color gradient between the colors of consecutive videoframes, use machine vision for identification of objects within a videoframe, use any suitable image processing technique for objectidentification, or any combination thereof to determine scenecontinuity.

To decrease the likelihood that a user notices that a reduction instreaming quality has caused the normally presented video frames and theaudio to be out of synchronization, the content application maydetermine that, of the stored video frames that are similar to thecurrently streamed video frame, the replacement video frame ischronologically the earliest. If video frames from both camera angles111 and 113 are suitable for replacing a video frame at camera angle114, the content application may choose a previously stored video frameof camera angle 111 because the use of camera angle 111 occurschronologically earlier than the use of camera angle 113 occurs.

The content application may determine the spoken dialogue associatedwith the currently streamed video frame and that the spoken dialogue isnot associated with a person depicted in a previously stored videoframe. For example, the content application determines that the spokendialogue of the streamed audio is of the female actor and thereplacement frame is chosen such that an actor presented in the frame isnot the female actor. For this reason, the content application mayidentify video frames of either camera angles 111 or 113 that depict themale actor to be suitable for replacing the currently streamed videoframe of the woman talking.

In some embodiments, the content application provides replacing astreamed video frame that has become out of synchronization with thestreamed audio with a set of video frames. Sets of video frames of acontent item may have been pre-mapped or pre-curated to be similar tovideo frames such that they are suitable substitutes when a video framebecomes out of synchronization during reduced streaming quality. In someembodiments, the content application causes at least one set of thevideo frames of the content item to be stored. The stored video framesare used by the content application to replace video frames beingaffected by a reduced streaming quality. For example, the video framesof camera angle 111 and camera angle 113 are stored by the contentapplication in the local memory of a device (e.g., a smartphone). Thestored video frames are also mapped to video frames occurring atrespective time segments of the content item. For example, the storedvideo frames of camera angle 111 and camera angle 113 are mapped to thevideo frames associated with the content item normally presented atcamera angle 114 (e.g., video of the female actor speaking).

The content application may receive the content item using a datastream. For example, the content application may receive the contentitem (e.g., a movie) using a data stream over a Wi-Fi network. Thequality of the data stream or the quality of streaming depends onfactors such as the number of devices within the network consuming thelimited network bandwidth at once and the maximum bandwidth that ispredetermined by an Internet provider. The received content item isdivided into time segments. Each of the time segments corresponds to arespective video frame of the content item and to at least one storedset of the video frames. For example, the movie is represented as achronological series of video frames and time segments that are taggedto at least one of the video frames. In some embodiments, a time segmentcorresponding to a video frame is mapped to at least one set of videoframes. For example, video frames of camera angle 111 and camera angle113 are mapped to the time segment of 20:09 or 20 minutes and 9 secondsfrom the start of the movie. The time segment of 20:09 corresponds to avideo frame of normally presented camera angle 114.

The content application may determine that a quality of streaming thevideo frames has reduced during the streaming of one of the timesegments. Streaming quality may be considered reduced when the bit rateof the data stream is lowered, including a bit rate of 0 Mbps (e.g., thedevice is disconnected from the network). In some embodiments, thecontent application determines that the bit rate of receiving thecontent item using the data stream has decreased. The contentapplication may use any suitable threshold as described herein fordetermining that the bit rate of receiving the content item hasdecreased.

When the quality of streaming the video frames has reduced, the contentapplication may use the mapping between each time segment and at leastone corresponding set of video frames to identify suitable camera anglesto replace video frames affected by the reduced streaming quality. Forexample, the content application uses the time stamp of 20:09corresponding to a video frame of normally presented camera angle 114 toidentify that the stored video frames at camera angles 111 and 113 aresuitable for replacing the video frame at 20:09.

In some embodiments, the content application receives metadata in thedata stream, where the identification of the suitable camera angles isbased on the metadata. For example, the metadata includes a datastructure that holds key-value pairs of time segment keys and videoframes identifiers of the suitable camera angle values. The mapping oftime segments to video frames is described further in the description ofFIG. 3. The metadata including the mapping for each time segment of thecontent item may be received prior to receiving the content item suchthat the content application has complete, a priori knowledge of themapping in the case of any reduction in streaming quality. The metadatamay be packaged such that it is received at once, which will bedescribed in the description of FIG. 2.

Once the content application identifies the set of video framescorresponding to the time segment affected by the reduction of streamingquality, the content application may cause the identified set to bedisplayed in place of streaming the video frames while continuing tostream the audio of the content item. For example, the contentapplication displays the replacement video frames from camera angle 111depicting the male actor listening in place of normally presented cameraangle 114 while continuing to stream the spoken dialogue of the femaleactor. In this way, the content application has enhanced the contentconsumption experience by showing a previously stored video framesuitable for presentation with the streamed audio without resorting to abuffering notification.

When the duration of the reduction in quality is greater than theduration of any one set of video frames that are mapped to a timesegment, the content application may implement one of multipleworkarounds. In some embodiments, the content application causes theidentified set to be repeatedly displayed until the streaming qualityhas sufficiently increased. For example, if the reduction in streamingquality lasts the entire 3-second duration of camera angle 114, the2-second duration of camera angle 111 will not fully replace the absenceof the normally presented video frames. The content application maycause the video frames lasting 2 seconds to be displayed 1.5 times tofill the 3 seconds of video loss (i.e., display the 2 seconds of videoframes immediately followed by displaying the first second of the 2seconds of video). In some embodiments, the content applicationidentifies multiple sets of the stored sets of video frames as suitableto replace a time segment affected by the reduced streaming quality. Thecontent application may then use the multiple identified sets throughthe duration of the reduced streaming quality. For example, the contentapplication identifies the sets of video frames at camera angles 111 and113 as corresponding to the time segment associated with camera angle114. The content application may then display video frames from bothcamera angles in place of the normally streaming video frames of cameraangle 114. In some embodiments, the content application determines theorder in which multiple sets are displayed when replacing video framesaffected by reduced streaming quality. The content application maychoose the order of sets based on their length. For example, videoframes associated with camera angle 113 may be displayed before thevideo frames associated with camera angle 111 because the video framesassociated with camera angle 113 have a longer duration than the videoframes associated with camera angle 111. The content application maychoose the order of sets based on the chronological occurrence of thesets in the content item. For example, the content application choosesto display video frames associated with camera angle 111 before thevideo frames associated with camera angle 113 because camera angle 111was presented earlier than camera angle 113.

In some embodiments, the content application causes the video frames ofthe content item to be displayed as they normally would be afterdetermining the quality of streaming the video frames has sufficientlyincreased. For example, the content application determines that the bitrate of the data stream used to receive the content item is now above a500 Mbps threshold and causes the video frames at camera angle 115 ofthe content item to be displayed instead of using stored video framesfor replacement. When the content application determines that thereceived video frames are synchronized with the audio (e.g., the videoframes have been consistently received and buffered while synchronizedwith the audio for a period of time), the content application may causethe received video frame stream to be displayed once again, picking upat a time corresponding to the progress of the audio stream. Forexample, the bit rate of the data stream providing the movie in FIG. 1sufficiently increases such that the content application begins toreceive the video frames that are synchronized with the received audio.

The content application may, before displaying the synchronized videoframes, monitor the quality of the data stream and the synchronizationof the video frames and audio for some period of time (e.g., 2 seconds).If the received video frames and audio are synchronized for those 2seconds, the content application may cause the normally presented videoframes and audio to be displayed (e.g., continuing normal display ofcamera angle 115).

In some embodiments, the content application may cause stored sets ofvideo frames to be deleted after determining that the stored sets ofvideo frames are not mapped to any upcoming time segment. For example,the scene of the male and female actors having a conversation asdepicted in FIG. 1 ends after camera angle 116, and the stored sets ofvideo frames corresponding to the scene are not mapped to future timesegments of the movie. The content application may compare the timesegment associated with a currently streamed video segment after cameraangle 116, determine that the stored sets of video frames of cameraangles 111-113 are mapped only to time segments preceding the timesegment associated with the currently streamed video segment, and causethe stored sets of video frames of camera angles 111-113 to be deletedfrom the memory of the device. If a device has limited storage capacity,the content application may cause a portion of the entire collection ofreplacement video frame sets to be stored and download another portiononly after deleting stored portions from the device's storage.

FIG. 2 shows diagram 200 of an illustrative example of packagingmetadata for mapping video frame sets, in accordance with at least someembodiments of the disclosure. Sets of video frames 202 of a contentitem include identified scenes that are mapped to other video frames inthe content item. In some embodiments, the content application causesthe sets of video frames 202 to be downloaded to a device before acontent item is streamed to the device. Pre-downloading the sets ofvideo frames to replace video frames affected by streaming qualityreduction has the benefit of providing replacement video frames at thevery beginning of a scene before a content application could otherwisestore and identify replacement video frames in real time. The processperformed by the content application in the illustrative example ofpackaging metadata for mapping video frame sets of FIG. 2 may beperformed by hardware such as control circuitry and processingcircuitry, as described in the descriptions of FIGS. 5-6.

In some embodiments, the content application processes the contentbefore causing the content item to be displayed or streamed to a devicefor display (e.g., pre-processing). The content application may identifythe replacement sets of video frames for each scene of the content item.For example, for a movie filmed inside different rooms of a house, whereeach scene is identifiable by the room in which it is filmed, thecontent application identifies replacement sets of video frames for eachroom and actor in the room. In some embodiments, the content applicationselects replacement video frames by determining which scenes depict anactor who is either silent or making minimal lip movements. Thisselection may help the streamed audio played with the replacement videoframes seem as if it is still synchronized with the replacement videobecause there is no mismatched spoken dialogue and lip movement. In someembodiments, the content application determines, using audio processing,video frames that are accompanied by audio of the actor who isperforming the spoken dialogue of a video frame under analysis. Thecontent application may then use image processing to determine which ofthese video frames do not depict this actor. For example, the contentapplication may perform audio processing on the audio of normallypresented camera angles 111-116 to determine that the female actor isspeaking throughout the camera angles. Because the content applicationhas determined that the camera angles belong to the same scene and thespoken dialogue is associated with her voice, the content applicationselects, from the normally presented video frames of those cameraangles, video frames in which the male actor is making minimal lipmovements.

In some embodiments, the sets of video frames are chosen by the contentapplication during pre-processing such that the set of consecutive videoframes having the longest duration is mapped. For example, a first setof video frames having a duration of 4 seconds may be chosen for mappingover a second set of video frames having a duration of 2 seconds. Insome embodiments, the content application selects multiple sets of videoframes for each scene or each video frame in a scene. For example, thecontent application may choose a first set of video frames with the maleactor directly facing the camera and a second set of video frames with aside view of the female actor that obscures her lip movements as twosets of suitable replacement candidates for a video frame associatedwith the spoken dialogue of the female actor.

The chosen replacement sets of video frames 204 may be packaged intopackage 206 and stored as part of the metadata of the content. In someembodiments, replacement sets of video frames 204 are identifiable bytime segment tags, scene number, any suitable identification mark to mapa set of video frames to at least one other video frame, or anycombination thereof For example, the content application creates a datastructure or pointer linking data of the replacement set of video framesassociated with camera angle 111 to time segment 20:09 associated with avideo frame at camera angle 114. In some embodiments, the contentapplication causes package 206 to be received by the device or receivesthe package 206 before the content item is streamed. The contentapplication may cause package 206 to be received by the device when thenetwork bandwidth is high enough for package 206 to be transmitted orwhen the device has sufficient storage capacity to download package 206.In some embodiments, the content application may cause portions ofpackage 206 to be received by the device and cause other portions ofpackage 206 to be received when the network bandwidth or storagecapacity is sufficient.

FIG. 3 shows diagram 300 of an illustrative example of mapping timesegments and video frames, in accordance with at least some embodimentsof the disclosure. The content application may perform mapping, orpre-mapping if the mapping is done prior to the content item beingstreamed to a device, to identify a video frame or video frames toreplace a video frame affected by reduced streaming quality. A contentitem is divided into camera angles including camera angles 301-306.Camera angles 302 and 304 have been determined by the contentapplication to be suitable for replacing video frames associated withcamera angles 301, 303, 305, and 306. In some embodiments, the contentapplication may package the sets of replacement video frames at cameraangles 302 and 304 into a package (e.g., package 206) to be availablefor download by a device before the content item is streamed. Theprocess performed by the content application in the illustrative exampleof mapping time segments and video frames of FIG. 3 may be performed byhardware such as control circuitry and processing circuitry, asdescribed in the descriptions of FIGS. 5-6.

FIG. 4 shows diagram 400 of an illustrative system for providing contentduring streaming quality reduction, in accordance with at least someembodiments of the disclosure. Device 410 and content source 430 arecommunicatively linked through network communication node 420. Forexample, a mobile phone may be linked to the content source of astreaming service such as Netflix over a communication network enabledby a Wi-Fi router. Device 410 includes local memory 412, display 414,and control circuitry (e.g., control circuitry 504 of FIG. 5). Thecontrol circuitry further includes frame replacement engine 413 forprocessing received content item data 411. Content item data 411 mayinclude video frames, audio, and packaged metadata to be used by framereplacement engine 413 to replace video frames affected by streamingquality reductions with a suitable video frame or frames. Althoughdepicted as separate from local memory 412, content item data 411 may bestored within local memory 412. For example, the packaged metadata orvideo frames used for the video frame buffer may be stored in localmemory 412.

The control circuitry or the frame replacement engine 413 associatedwith the control circuitry may perform any one portion or the entiretyof the replacement and buffer-populating processes described in thedescription of FIG. 1. For example, frame replacement engine 413 causesthe video frames and audio of content item data 411 to be received bydevice 410, determines that the streaming quality has reduced such thatthe video frames and audio are not synchronized (e.g., the bit ratetransmitted by communication node 420 is sufficiently decreased), anddetermines a replacement video frame stored in local memory 412 to bedisplayed on display 414.

To determine the replacement video frame, frame replacement engine 413may compare a currently streamed video frame of content item data 411 toa video frame that is previously stored in local memory 412. Localmemory 412 may store a suitable number of video frames based upon thesize of its storage capacity. For example, a device having 2 gigabytesof storage available stores approximately two 90-minute movies (i.e., 1GB per movie) which is approximately equivalent to 129,600 video frames.Frame replacement engine 413 may populate a video frame buffer. Forexample, frame replacement engine 413 stores a predetermined number ofvideo frames preceding a currently streamed video frame in a video framebuffer of local memory 412. In some embodiments, frame replacementengine 413 determines, using metadata in content item data 411, a set ofvideo frames to replace a currently streamed video frame. Framereplacement engine 413 may then cause the replacement set of videoframes to be displayed in display 414.

Users may access content from one or more of their devices. FIG. 5 showsgeneralized embodiments of a device capable of presenting content on adisplay 512. For example, display 512 may belong to a smartphone device.In another example, display 512 may belong to a user televisionequipment system. User television equipment system with display 512 mayinclude a set-top box 516. Set-top box 516 may be communicativelyconnected to speaker 514, and display 512. In some embodiments, display512 may be a television display or a computer display. In someembodiments, set top box 516 may be communicatively connected to userinterface input 510. In some embodiments, user interface input 510 maybe a remote-control device. Set-top box 516 may include one or morecircuit boards. In some embodiments, the circuit boards may includeprocessing circuitry, control circuitry, and storage (e.g., RAM, ROM,Hard Disk, or Removable Disk). In some embodiments, circuit boards mayinclude an input/output path. More specific implementations of devicesare discussed below in connection with FIG. 6. Each one of device 500and user equipment system 501 may receive content and data viainput/output (hereinafter “I/O”) path 502. I/O path 502 may providecontent (e.g., broadcast programming, on-demand programming, Internetcontent, content available over a local area network (LAN) or wide areanetwork (WAN), and/or other content) and data to control circuitry 504,which includes processing circuitry 506 and storage 508. Controlcircuitry 504 may be used to send and receive commands, requests, andother suitable data using I/O path 502. I/O path 502 may connect controlcircuitry 504 (and specifically processing circuitry 506) to one or morecommunications paths (described below). I/O functions may be provided byone or more of these communications paths but are shown as a single pathin FIG. 5 to avoid overcomplicating the drawing.

Control circuitry 504 may be based on any suitable processing circuitrysuch as processing circuitry 506. As referred to herein, processingcircuitry should be understood to mean circuitry based on one or moremicroprocessors, microcontrollers, digital signal processors,programmable logic devices, field-programmable gate arrays (FPGAs),application-specific integrated circuits (ASICs), and may include amulti-core processor (e.g., dual-core, quad-core, hexa-core, or anysuitable number of cores) or supercomputer. In some embodiments,processing circuitry may be distributed across multiple separateprocessors or processing units, for example, multiple of the same typeof processing units (e.g., two Intel Core i7 , processors) or multipledifferent processors (e.g., an Intel Core i5 processor and an Intel Corei7 processor). In some embodiments, control circuitry 504 executesinstructions for an application stored in memory (e.g., storage 508).Specifically, control circuitry 504 may be instructed by the applicationto perform the functions discussed above and below. For example, theapplication may provide instructions to control circuitry 504 todetermine a video frame or set of video frames for replacement of acurrently streamed video frame affected by a reduction in streamingquality. In some implementations, any action performed by controlcircuitry 504 may be based on instructions received from theapplication.

In client-server based embodiments, control circuitry 504 may includecommunications circuitry suitable for communicating with a contentapplication server or other networks or servers. The instructions forcarrying out the above-mentioned functionality may be stored on thecontent application server. Communications circuitry may include a cablemodem, an integrated services digital network (ISDN) modem, a digitalsubscriber line (DSL) modem, a telephone modem, Ethernet card, or awireless modem for communications with other equipment, or any othersuitable communications circuitry. Such communications may involve theInternet or any other suitable communications networks or paths (whichis described in more detail in connection with FIG. 6). In addition,communications circuitry may include circuitry that enables peer-to-peercommunication of devices, or communication of devices in locationsremote from each other (described in more detail below).

Memory may be an electronic storage device provided as storage 508 thatis part of control circuitry 504. As referred to herein, the phrase“electronic storage device” or “storage device” should be understood tomean any device for storing electronic data, computer software, orfirmware, such as random-access memory, read-only memory, hard drives,optical drives, digital video disc (DVD) recorders, compact disc (CD)recorders, BLU-RAY disc (BD) recorders, BLU-RAY 3D disc recorders,digital video recorders (DVR, sometimes called a personal videorecorder, or PVR), solid state devices, quantum storage devices, gamingconsoles, gaming media, or any other suitable fixed or removable storagedevices, and/or any combination of the same. Storage 508 may be used tostore various types of content described herein, including, for example,a content item that is streamed to a device, sets of video frames thatare identified as suitable replacements for corresponding video frames,metadata containing mappings of time segments to sets of video frames,and identifiers for scene start and end points. Nonvolatile memory mayalso be used (e.g., to launch a boot-up routine and other instructions).Cloud-based storage, described in relation to FIG. 6, may be used tosupplement storage 508 or instead of storage 508. In some embodiments, adatabase is accessible at the cloud-based storage, where the databasestores a content item that is streamed to a device, sets of video framesthat are identified as suitable replacements for corresponding videoframes, metadata containing mappings of time segments to sets of videoframes, and identifiers for scene start and end points. Nonvolatilememory may also be used (e.g., to launch a boot-up routine and otherinstructions).

Control circuitry 504 may include video generating circuitry and tuningcircuitry, such as one or more analog tuners, one or more MPEG-2decoders or other digital decoding circuitry, high-definition tuners, orany other suitable tuning or video circuits or combinations of suchcircuits. Encoding circuitry (e.g., for converting over-the-air, analog,or digital signals to MPEG signals for storage) may also be provided.Control circuitry 504 may also include scaler circuitry for upconvertingand downconverting content into the preferred output format of the userequipment 500. Circuitry 504 may also include digital-to-analogconverter circuitry and analog-to-digital converter circuitry forconverting between digital and analog signals. The tuning and encodingcircuitry may be used by the device to receive and to display, to play,or to record content. The tuning and encoding circuitry may also be usedto receive content data. The circuitry described herein, including forexample, the tuning, video generating, encoding, decoding, encrypting,decrypting, scaler, and analog/digital circuitry, may be implementedusing software running on one or more general purpose or specializedprocessors. Multiple tuners may be provided to handle simultaneoustuning functions (e.g., watch and record functions, picture-in-picture(PIP) functions, or multiple-tuner recording). If storage 508 isprovided as a separate device from user equipment 500, the tuning andencoding circuitry (including multiple tuners) may be associated withstorage 508.

A user may send instructions to control circuitry 504 using user inputinterface 510. User input interface 510 may be any suitable userinterface, such as a remote control, mouse, trackball, keypad, keyboard,touch screen, touchpad, stylus input, joystick, voice recognitioninterface, or other user input interfaces. Display 512 may be providedas a stand-alone device or integrated with other elements of each one ofdevice 500 and user equipment system 501. For example, display 512 maybe a touchscreen or touch-sensitive display. In such circumstances, userinput interface 510 may be integrated with or combined with display 512.Display 512 may be one or more of a monitor, a television, a liquidcrystal display (LCD) for a mobile device, amorphous silicon display,low temperature poly silicon display, electronic ink display,electrophoretic display, active matrix display, electro-wetting display,electrofluidic display, cathode ray tube display, light-emitting diodedisplay, electroluminescent display, plasma display panel,high-performance addressing display, thin-film transistor display,organic light-emitting diode display, surface-conductionelectron-emitter display (SED), laser television, carbon nanotubes,quantum dot display, interferometric modulator display, or any othersuitable equipment for displaying visual images. In some embodiments,display 512 may be HDTV-capable. In some embodiments, display 512 may bea 3D display, and the interactive application and any suitable contentmay be displayed in 3D. A video card or graphics card may generate theoutput to the display 512. The video card may offer various functionssuch as accelerated rendering of 3D scenes and 2D graphics,MPEG-2/MPEG-4 decoding, TV output, or the ability to connect multiplemonitors. The video card may be any processing circuitry described abovein relation to control circuitry 504. The video card may be integratedwith the control circuitry 504. Speakers 514 may be provided asintegrated with other elements of each one of device 500 and userequipment system 501 or may be stand-alone units. The audio component ofvideos and other content displayed on display 512 may be played throughspeakers 514. In some embodiments, the audio may be distributed to areceiver (not shown), which processes and outputs the audio via speakers514.

The content application may be implemented using any suitablearchitecture. For example, it may be a stand-alone applicationwholly-implemented on each one of device 500 and user equipment system501. In such an approach, instructions of the application are storedlocally (e.g., in storage 508), and data for use by the application isdownloaded on a periodic basis (e.g., from an out-of-band feed, from anInternet resource, or using another suitable approach). Controlcircuitry 504 may retrieve instructions of the application from storage508 and process the instructions to generate any of the displaysdiscussed herein. Based on the processed instructions, control circuitry504 may determine what action to perform when input is received frominput interface 510.

In some embodiments, the application is a client-server basedapplication. Data for use by a thick or thin client implemented on eachone of device 500 and user equipment system 501 is retrieved on-demandby issuing requests to a server remote to each one of device 500 anduser equipment system 501. In one example of a client-server basedcontent application, control circuitry 504 runs a web browser thatinterprets web pages provided by a remote server. For example, theremote server may store the instructions for the application in astorage device. The remote server may process the stored instructionsusing circuitry (e.g., control circuitry 504) and generate the displaysdiscussed above and below. The client device may receive the displaysgenerated by the remote server and may display the content of thedisplays locally on equipment device 500. This way, the processing ofthe instructions is performed remotely by the server while the resultingdisplays are provided locally on equipment device 500.

In some embodiments, the content application is downloaded andinterpreted or otherwise run by an interpreter or virtual machine (runby control circuitry 504). In some embodiments, the content applicationmay be encoded in the ETV Binary Interchange Format (EBIF), received bycontrol circuitry 504 as part of a suitable feed, and interpreted by auser agent running on control circuitry 504. For example, the contentapplication may be an EBIF application. In some embodiments, the contentapplication may be defined by a series of JAVA-based files that arereceived and run by a local virtual machine or other suitable middlewareexecuted by control circuitry 504. In some of such embodiments (e.g.,those employing MPEG-2 or other digital media encoding schemes), thecontent application may be, for example, encoded and transmitted in anMPEG-2 object carousel with the MPEG audio and video packets of aprogram.

Each one of device 410 and user equipment system 501 of FIG. 5 may beimplemented in system 600 of FIG. 6 as user television equipment 602,user computer equipment 604, wireless user communications device 606, orany other type of user equipment suitable for accessing content, such asa non-portable gaming machine. For simplicity, these devices may bereferred to herein collectively as user equipment or devices and may besubstantially similar to devices described above. Devices, on which anapplication may be implemented, may function as a standalone device ormay be part of a network of devices. Various network configurations ofdevices may be implemented and are discussed in more detail below.

A device utilizing at least some of the system features described abovein connection with FIG. 5 may not be classified solely as usertelevision equipment 602, user computer equipment 604, or a wirelessuser communications device 606. For example, user television equipment602 may, like some user computer equipment 604, be Internet-enabledallowing for access to Internet content, while user computer equipment604 may, like some television equipment 602, include a tuner allowingfor access to television programming. The application may have the samelayout on various different types of user equipment or may be tailoredto the display capabilities of the user equipment. For example, on usercomputer equipment 604, the content application may be provided as a website accessed by a web browser. In another example, the contentapplication may be scaled down for wireless user communications devices606.

In system 600, there is typically more than one of each type of devicebut only one of each is shown in FIG. 6 to avoid overcomplicating thedrawing. In addition, each user may utilize more than one type of deviceand also more than one of each type of device.

In some embodiments, a device (e.g., user television equipment 602, usercomputer equipment 604, wireless user communications device 606) may bereferred to as a “second device.” For example, a second device mayprovide an interface for adjusting settings and display preferences ofthe first device. In some embodiments, the second device is configuredfor interacting with other second devices or for interacting with asocial network. The second screen device may be located in the same roomas the first device, a different room from the first device but in thesame house or building, or in a different building from the firstdevice.

The user may also set various settings to maintain consistentapplication settings across in-home devices and remote devices. Forexample, if a user enables replacement of video frames during reductionof streaming quality on their personal computer at their office, thisfeature would also be enabled on the user's in-home devices (e.g., usertelevision equipment and user computer equipment) as well as the user'smobile devices, if desired. Therefore, changes made on one device maychange the content experienced on another device, regardless of whetherthey are the same or a different type of device. In addition, thechanges made may be based on settings input by a user, as well as useractivity monitored by the content application. In addition, two devicesmay work together to provide functionality for the user. For example,the first device performing comparison of the currently streamed videoframe to previously stored video frames may further instruct the seconddevice to display a previously stored video frame that the first devicehas identified as a suitable replacement video frame.

The devices may be coupled to communications network 614. Namely, usertelevision equipment 602, user computer equipment 604, and wireless usercommunications device 606 are coupled to communications network 614 viacommunications paths 608, 610, and 612, respectively. Communicationsnetwork 614 may be one or more networks including the Internet, a mobilephone network, mobile voice or data network (e.g., a 4G or LTE network),cable network, public switched telephone network, or other types ofcommunications network or combinations of communications networks. Paths608, 610, and 612 may separately or together include one or morecommunications paths, such as, a satellite path, a fiber-optic path, acable path, a path that supports Internet communications (e.g., IPTV),free-space connections (e.g., for broadcast or other wireless signals),or any other suitable wired or wireless communications path orcombination of such paths. Path 612 is drawn with dotted lines toindicate that in the exemplary embodiment shown in FIG. 6 it is awireless path and paths 608 and 610 are drawn as solid lines to indicatethey are wired paths (although these paths may be wireless paths, ifdesired). Communications with the devices may be provided by one or moreof these communications paths but are shown as a single path in FIG. 6to avoid overcomplicating the drawing.

Although communications paths are not drawn between devices, thesedevices may communicate directly with each other via communicationspaths, such as those described above in connection with paths 608, 610,and 612, as well as other short-range point-to-point communicationspaths, such as USB cables, IEEE 1394 cables, wireless paths (e.g.,Bluetooth, infrared, or IEEE 602-11x), or other short-rangecommunication via wired or wireless paths. BLUETOOTH is a certificationmark owned by Bluetooth SIG, INC. The devices may also communicate witheach other directly through an indirect path via communications network614.

System 600 includes content source 616 and content data source 618coupled to communications network 614 via communications paths 620 and622, respectively. Paths 620 and 622 may include any of thecommunications paths described above in connection with paths 608, 610,and 612. Communications with the content source 616 and content datasource 618 may be exchanged over one or more communications paths butare shown as a single path in FIG. 6 to avoid overcomplicating thedrawing. In addition, there may be more than one of each of contentsource 616 and content data source 618, but only one of each is shown inFIG. 6 to avoid overcomplicating the drawing. If desired, content source616 and content data source 618 may be integrated as one source device.Although communications between sources 616 and 618 with devices 602,604, and 606 are shown as through communications network 614, in someembodiments, sources 616 and 618 may communicate directly with devices602, 604, and 606 via communications paths (not shown) such as thosedescribed above in connection with paths 608, 610, and 612.

Content source 616 may include one or more types of content distributionequipment including a television distribution facility, cable systemheadend, satellite distribution facility, programming sources (e.g.,television broadcasters), intermediate distribution facilities and/orservers, Internet providers, on-demand content servers, and othercontent providers. Content source 616 may be the originator of content(e.g., a television broadcaster or a Webcast provider) or may not be theoriginator of content (e.g., an on-demand content provider or anInternet provider of content of broadcast programs for downloading).Content source 616 may include cable sources, satellite providers,on-demand providers, Internet providers, over-the-top content providers,or other providers of content. Content source 616 may also include aremote content server used to store different types of content(including video content selected by a user), in a location remote fromany of the devices. Content source 616 may include at least 2 sourcesfor content that provide content for the content application to provideon the user devices (e.g., user devices 102 and 202). Systems andmethods for remote storage of content and providing remotely storedcontent to user equipment are discussed in greater detail in connectionwith Ellis et al., U.S. Pat. No. 7,761,892, issued Jul. 20, 2010, whichis hereby incorporated by reference herein in its entirety.

Content data source 618 may provide data related to the content. Contentdata may be provided to the devices using any suitable approach. In someembodiments, the content application may be a stand-alone interactivetelevision program guide that receives program guide data via a datafeed (e.g., a continuous feed or trickle feed). Program schedule dataand other content data may be provided to the user equipment on atelevision channel sideband, using an in-band digital signal, using anout-of-band digital signal, or by any other suitable data transmissiontechnique. Program schedule data and other content data may be providedto user equipment on multiple analog or digital television channels.

In some embodiments, content data from content data source 618 may beprovided to user's equipment using a client-server approach. Forexample, a user equipment device may pull content data from a server, ora server may push content data to a user equipment device. In someembodiments, a content application client residing on the user'sequipment may initiate sessions with source 618 to obtain content datawhen needed, e.g., when the content data is out of date or when thedevice requests the data. Content data may be provided to the userequipment with any suitable frequency (e.g., continuously, daily, auser-specified period of time, a system-specified period of time, or inresponse to a request from user equipment). Content data source 618 mayprovide devices 602, 604, and 606 the application itself or softwareupdates for the application.

In some embodiments, the content data may include viewer data. Forexample, the viewer data may include current and/or historical useractivity information (e.g., what content the user typically watches,what times of day the user watches content, whether the user interactswith a social network, at what times the user interacts with a socialnetwork to post information, what types of content the user typicallywatches (e.g., pay TV or free TV), mood, or brain activity information).The content data may also include subscription data. For example, thesubscription data may identify to which sources or services a given usersubscribes and/or to which sources or services the given user haspreviously subscribed but later terminated access (e.g., whether theuser subscribes to premium channels, whether the user has added apremium level of services, whether the user has increased Internetspeed). In some embodiments, the viewer data and/or the subscriptiondata may identify patterns of a given user for a period of less or morethan one year. The content data may include a model (e.g., a survivormodel) used for generating a score that indicates a likelihood a givenuser will terminate access to a service/source. For example, theapplication may monitor a user's engagement with content to generate avalue or score that indicates a likelihood of whether the given userwill terminate access to a particular service or source. In particular,a higher score may indicate a higher level of confidence that the userwill terminate access to a particular service or source. Based on thescore, the application may generate promotions that entice the user tokeep the particular service or source indicated by the score as one towhich the user will likely terminate access. The content data mayinclude metadata files pertaining to the content or content segments(e.g., characteristics of content portions, content segments related toa current portion of content based on a characteristic). The contentdata may also include user profiles used to determine likelihoods of theuser navigating away from or to a content portion or segment. Forexample, content data may include information characterizing contentsuch as the director, producer, actors, activities occurring during thecontent, locations the content was created, any description of thecontent context or the content production, or any suitable combinationthereof.

Applications may be, for example, stand-alone applications implementedon devices. For example, the application may be implemented as softwareor a set of executable instructions which may be stored in storage 508and executed by control circuitry 504 of each one of device 500 and userequipment system 501. In some embodiments, applications may beclient-server applications where only a client application resides onthe device, and server application resides on a remote server. Forexample, applications may be implemented partially as a clientapplication on control circuitry 504 of each one of device 500 and userequipment system 501 and partially on a remote server as a serverapplication (e.g., content data source 618) running on control circuitryof the remote server. When executed by control circuitry of the remoteserver (such as content data source 618), the application may instructthe control circuitry to generate the content displays and transmit thegenerated displays to the devices. The server application may instructthe control circuitry of the content data source 618 to transmit datafor storage on the device. The client application may instruct controlcircuitry of the receiving user equipment to generate the contentdisplays.

Content and/or content data delivered to devices 602, 604, and 606 maybe OTT content. OTT content delivery allows Internet-enabled userdevices, including any device described above, to receive content thatis transferred over the Internet, including any content described above,in addition to content received over cable or satellite connections. OTTcontent is delivered via an Internet connection provided by an Internetservice provider (ISP), but a third party distributes the content. TheISP may not be responsible for the viewing abilities, copyrights, orredistribution of the content, and may only transfer IP packets providedby the OTT content provider. Examples of OTT content providers includeYOUTUBE, NETFLIX, and HULU, which provide audio and video via IPpackets. YouTube is a trademark owned by Google Inc., Netflix is atrademark owned by Netflix Inc., and Hulu is a trademark owned by Hulu,LLC. OTT content providers may additionally or alternatively providecontent data described above.

Content output system 600 is intended to illustrate a number ofapproaches, or network configurations, by which devices and sources ofcontent and content data may communicate with each other for the purposereplacing a video frame affected by reduced streaming quality with asuitable replacement video frame or video frames. The embodimentsdescribed herein may be applied in any one or a subset of theseapproaches, or in a system employing other approaches for deliveringcontent. The following four approaches provide specific illustrations ofthe generalized example of FIG. 6.

In one approach, devices may communicate with each other within a homenetwork. Devices may communicate with each other directly viashort-range point-to-point communication schemes described above, viaindirect paths through a hub or other similar device provided on a homenetwork, or via communications network 614. Each of the multipleindividuals in a single home may operate different devices on the homenetwork. As a result, it may be desirable for various contentapplication information or settings to be communicated between thedifferent devices. For example, it may be desirable for users tomaintain consistent application settings on different devices within ahome network, as described in greater detail in Ellis et al., U.S.Patent Publication No. 2005/0261827, filed Jul. 11, 2005. Differenttypes of devices in a home network may also communicate with each otherto transmit content. For example, a user may use content navigationbutton 120 on one device while the content is transmitted to a seconddevice to be generated for display.

In a second approach, users may have multiple types of user equipment bywhich they access content. For example, some users may have homenetworks that are accessed by in-home and mobile devices. Users maycontrol in-home devices via an application implemented on a remotedevice. For example, users may access an online application on a websitevia a personal computer at their office, or a mobile device such as aPDA or web-enabled mobile telephone. The user may set various settings(e.g., recordings, reminders, content segment buffering enablement, orother settings) on the online content application to control the user'sin-home equipment. The online application may control the user'sequipment directly, or by communicating with an application on theuser's in-home equipment. Various systems and methods for devicescommunicating, where the devices are in locations remote from eachother, is discussed in, for example, Ellis et al., U.S. Pat. No.8,046,801, issued Oct. 25, 2011, which is hereby incorporated byreference herein in its entirety.

In a third approach, users of devices inside and outside a home may usetheir application to communicate directly with content source 616 toaccess content. Specifically, within a home, users of user televisionequipment 602 and user computer equipment 604 may access the applicationto navigate among and locate desirable content. Users may also accessthe application outside of the home using wireless user communicationsdevices 606 to navigate among and locate desirable content.

In a fourth approach, devices may operate in a cloud computingenvironment to access cloud services. In a cloud computing environment,various types of computing services for content sharing, storage ordistribution (e.g., video sharing sites or social networking sites) areprovided by a collection of network-accessible computing and storageresources, referred to as “the cloud.” For example, the cloud mayinclude a collection of server computing devices, which may be locatedcentrally or at distributed locations, that provide cloud-based servicesto various types of users and devices connected via a network such asthe Internet via communications network 614. These cloud resources mayinclude one or more content sources 616 and one or more content datasources 618. In addition or in the alternative, the remote computingsites may include other devices, such as user television equipment 602,user computer equipment 604, and wireless user communications device606. For example, the other devices may provide access to a stored copyof a video or a streamed video. In such embodiments, devices may operatein a peer-to-peer manner without communicating with a central server.

The cloud provides access to services, such as content storage, contentsharing, or social networking services, among other examples, as well asaccess to any content described above, for devices. Services may beprovided in the cloud through cloud computing service providers, orthrough other providers of online services. For example, the cloud-basedservices may include a content storage service, a content sharing site,a social networking site, or other services via which user-sourcedcontent is distributed for viewing by others on connected devices. Thesecloud-based services may allow a device to store content to the cloudand to receive content from the cloud rather than storing contentlocally and accessing locally-stored content.

Cloud resources may be accessed by a device using, for example, a webbrowser, an application, a desktop application, a mobile application,and/or any combination of access applications of the same. The devicemay be a cloud client that relies on cloud computing for applicationdelivery, or the device may have some functionality without access tocloud resources. For example, some applications running on the devicemay be cloud applications, i.e., applications delivered as a serviceover the Internet, while other applications may be stored and run on thedevice. In some embodiments, a user device may receive content frommultiple cloud resources simultaneously. For example, a user device maystream audio from one cloud resource while downloading content from asecond cloud resource. Or a user device may download content frommultiple cloud resources for more efficient downloading. In someembodiments, devices may use cloud resources for processing operationssuch as the processing operations performed by processing circuitrydescribed in relation to FIG. 5.

Any one or more of device 500 and user equipment system 501 of FIG. 5and user television equipment 602, user computer equipment 604, andwireless user communications device 606 of FIG. 6 may be used toidentify a suitable replacement video frame or frames for display whenstreaming quality is reduced such that a synchronization betweenstreamed video frames and audio cannot be maintained. For example, thecontent applications, associated with user devices, of the presentdisclosure may store video frames from which at least one replacementvideo frame will be determined as a suitable replacement for a currentlystreamed video frame. Further details of the present disclosure arediscussed below in connection with the flowcharts of FIGS. 7-9. Itshould be noted that the steps of processes 700, 800, and 900 of FIGS.7-9, respectively, may be performed by control circuitry 504 of FIG. 5.Control circuitry 504 may be part of a device having a display 512(e.g., a device that may have any or all of the functionality of usertelevision equipment 602, user computer equipment 604, and/or wirelesscommunications device 606 of FIG. 6 such as user device 410 of FIG. 4),part of a remote server separated from the user equipment by way of acommunications network (e.g., communications network 614 of FIG. 6), ordistributed over a combination of both.

FIG. 7 depicts a flowchart of illustrative process 700 for replacing avideo frame with a previously stored video frame, in accordance with atleast some embodiments of the disclosure.

At step 702, the content application receives a content item fordisplay, using a data stream. The content application may cause a deviceto receive a content item. For example, a content application hosted ona remote server is communicatively linked to a device and a contentprovider such that the content application facilitates the transmissionof the content item from the content provider to the device. In someembodiments, the content application residing on a device receives thecontent item. For example, the content application executed by thecontrol circuitry of a device receives the content item on the device.The data stream may be communicated over any suitable communicationspath (e.g., communications paths 608, 610, 612, 620, and 622). In someembodiments, the content application causes the content item to betransmitted over the data stream on the communications path.

At step 704, the content application determines whether the quality ofstreaming the video frames has reduced such that a synchronizationbetween the video frames and the audio cannot be maintained. Forexample, the content application determines that the bit rate of thedata stream has decreased below a threshold bit rate. The threshold bitrate may be pre-determined such that, at bit rates below the threshold,an audio stream continues to be transmitted while a video stream is not.If the synchronization between the video frames and the audio can bemaintained, the content application returns to step 702 to continuereceiving the content item using the data stream. If the synchronizationbetween the video frames and the audio cannot be maintained, the contentapplication proceeds to step 706.

At step 706, the content application determines whether a previouslystored video frame of the video frames that is similar to a currentlystreamed video frame exists. In some embodiments, the contentapplication stores the video frames received using the data stream andselects, from those video frames, a suitable replacement video framethat is similar to the currently streamed video frame. For example, thecontent application stores video frames from camera angles 111-113. Thecontent application, to determine whether a video frame of the storedvideo frames is similar to a currently streamed video frame at normallypresented camera angle 114, compares the scene of the currently streamedvideo frame to the scenes of the stored video frames. The contentapplication may determine that a video frame of camera angle 111 is fromthe same scene as the currently streamed video frame (e.g., a similarvideo frame that preserves scene continuity). If the content applicationcannot find a previously stored video frame that is similar to thecurrently streamed video frame, the content application returns to step702 to receive the content item and determine, in step 704, whether thestreaming quality has sufficiently increased such that the video andaudio are synchronized for presentation. Although not depicted, thecontent application may, after determining there is no similar videoframe for replacement, resort to displaying a buffering notification. Ifthe content application determines that a previously stored video frameis similar to the currently streamed video frame, the contentapplication proceeds to step 708.

At step 708, the content application replaces, based on thedetermination in step 706, the currently streamed video frame with thepreviously stored video frame while continuing to provide audio. Thereplacement may have the benefit of increasing the appearance that thevideo is synchronized with the audio instead of displaying a frozenvideo frame of an actor whose lip movements are halted mid-word.Although not shown, process 700 may proceed after step 708 to thecontent application determining that the streaming quality hassufficiently increased such that the video frame stream is synchronizedwith the audio stream. The content application may monitor the bit rateof the data stream such that the bit rate is able to supportsynchronized video and audio streams for a threshold amount of time.Once the threshold time is reached, the content application may causethe normally presented stream of video frames to be displayed along withthe streamed audio.

FIG. 8 depicts a flowchart of illustrative process 800 for storing, in abuffer, video frames that are identified as being similar to a currentlystreamed video frame, in accordance with at least some embodiments ofthe disclosure.

At step 802, the content application receives the content item fordisplay, using a data stream. Like step 702 of process 700, the contentapplication may cause a device to receive a content item. For example, acontent application hosted on a remote server is communicatively linkedto a device and a content provider such that the content applicationfacilitates the transmission of the content item from the contentprovider to the device. In some embodiments, the content applicationresiding on a device receives the content item. For example, the contentapplication executed by the control circuitry of a device receives thecontent item on the device. The data stream may be communicated over anysuitable communications path (e.g., communications paths 608, 610, 612,620, and 622). In some embodiments, the content application causes thecontent item to be transmitted over the data stream on thecommunications path.

At step 804, the content application causes a predetermined number ofimmediately preceding streamed video frames of the content item to bestored in a video frame buffer. In some embodiments, the contentapplication instructs a user device to store a predetermined number ofvideo frames that immediately precede a currently streamed video frameto local memory (e.g., local memory 412). For example, the contentapplication causes the 100 frames immediately preceding the currentlystreamed video frame of camera angle 114 (e.g., the video frames ofcamera angle 113) to be stored in local memory. In some embodiments, thecontent application instructs a remote storage (e.g., a cloud server) tostore the predetermined number of video frames. For example, the contentapplication instructs a cloud server to store the 300 frames immediatelypreceding the currently streamed video frame of camera angle 114 (e.g.,the video frames of camera angles 111-113).

At step 806, the content application compares a currently streamed videoframe to each stored video frame in the video frame buffer. In someembodiments, the content application compares the scene of the currentlystreamed video frame to the scenes of the stored video frames. Thecontent application may determine that a video frame of camera angle 111is from the same scene as the currently streamed video frame (e.g., asimilar video frame that preserves scene continuity). The contentapplication may compare the time difference between when video framesare streamed, compare the color gradient between the colors ofconsecutive video frames, use machine vision for identification ofobjects within a video frame, use any suitable image processingtechnique for object identification, or any combination thereof todetermine scene continuity. In some embodiments, the content applicationdetermines the spoken dialogue associated with the currently streamedvideo frame, and compares the actor delivering the spoken dialogue toactors in the stored video frames in the video frame buffer. Forexample, the content application determines the spoken dialogue in thecurrently streamed video frame of camera angle 114 is a monologuedelivered by a female actor. The content application may then use imageprocessing to identify the female actor and determine the video frameswithin the video frame buffer that do not depict the female actor. Insome embodiments, the content application identifies that the femaleactor is depicted in a video frame, but that the camera angle obscuresher lip movements (e.g., the camera is behind the female actor and onlyher back is shown to the viewer). The content application may determinethat this video frame is also suitable for replacing the currentlystreamed frame to accompany the audio of her spoken dialogue.

At step 808, the content application determines whether there is apreviously stored video frame similar to a currently streamed videoframe. If there is no previously stored video frame similar to thecurrently streamed video frame, the content application may return tostep 802 to continue to receive the content item. Although not shown,the content application may also display a buffering notification ifthere is no previously stored video frame that is similar to thecurrently streamed video frame. The content application may determine asuitable replacement video frame within the same scene as the currentlystreamed video frame that does not depict the female actor deliveringthe spoken dialogue of the streaming audio. If there is a previouslystored video frame similar to the currently streamed video frame, thecontent application proceeds to step 810.

At step 810, the content application identifies a video frame of thestored video frames as being a similar video frame to the currentlystreamed video frame such that the similar video frame can be used inplace of the currently streamed video frame while the audio continues tobe streamed in case the streaming quality is reduced such that asynchronization between the video frames and the audio cannot bemaintained. The identification may be based upon the comparison in step806. Although not shown, the content application may identify the videoframe that is both similar to and furthest apart in time from thecurrently streamed video frame. For example, the content application mayidentify that video frames from both camera angles 111 and 113 aresimilar to a currently streamed video frame of camera angle 114 butselect the video frame from camera angle 111 as the suitable replacementvideo frame because it was streamed longer ago than the video frame fromcamera angle 113 was.

FIG. 9 depicts a flowchart of illustrative process 900 for causing to bedisplayed a video set in place of currently streamed video frames, inaccordance with at least some embodiments of the disclosure.

At step 902, the content application causes at least one set of videoframes to be stored. As described in the descriptions of FIGS. 2 and 3,the content application may map sets of video frames of a content itemto video frames of the content item prior to the content item beingstreamed to the device. The content application may store the pre-mappedsets of video frames and the metadata that indicates how the sets ofvideo frames are mapped to time segments of the content item. Forexample, the content application causes pre-mapped sets of video framesof camera angles 302 and 304 to be stored such that when video frames ofcamera angles 301, 303, 305, or 306 are affected by a reduced streamingquality, the stored sets of video frames may be used appropriately toreplace an affected video frame.

At step 904, the content application receives the content item using adata stream. In some embodiments, the content item is divided into timesegments and each of the time segments corresponds to a respective videoframe of the content item and to at least one of the stored sets ofvideo frames. Like steps 702 of process 700 and 802 of process 800, thecontent application may cause a device to receive a content item. Forexample, a content application hosted on a remote server iscommunicatively linked to a device and a content provider such that thecontent application facilitates the transmission of the content itemfrom the content provider to the device. In some embodiments, thecontent application residing on a device receives the content item. Forexample, the content application executed by the control circuitry of adevice receives the content item on the device. The data stream may becommunicated over any suitable communications path (e.g., communicationspaths 608, 610, 612, 620, and 622). In some embodiments, the contentapplication causes the content item to be transmitted over the datastream on the communications path. The content application may receiveboth the content item and the metadata of the pre-mapping using the datastream. An entire metadata package of the pre-mapping may be receivedbefore the content application receives the content item. In someembodiments, the metadata is received throughout the streaming of thecontent item to a device. For example, the content application receivesa portion of the metadata that is sized appropriately according to thestorage capacity of the device or the network bandwidth between a deviceand a communication node (e.g., communication node 420) transmitting thedata stream.

At step 906, the content application determines whether a quality ofstreaming the video frames has reduced during streaming a video framethat corresponds to one of the time segments such that the receivedvideo and audio of the content item are no longer synchronized. Thecontent application may use any of the methods described in thedescription of FIG. 1 for determining that the quality of streaming thevideo has sufficiently reduced. For example, the content applicationdetermines that the bit rate of the data stream has decreased below athreshold bit rate. The threshold bit rate may be pre-determined suchthat, at bit rates below the threshold, an audio stream continues to betransmitted while a video stream is not. If the synchronization betweenthe video frames and the audio can be maintained, the contentapplication returns to step 904 to continue receiving the content itemusing the data stream. If the synchronization between the video framesand the audio cannot be maintained, the content application proceeds tostep 908.

At step 908, the content application identifies, using the time segmentof the currently streamed video frame, a set of the stored sets of videoframes. For example, the content application uses the time segment 20:09of a video frame associated with camera angle 114 to determine that aset of video frames from camera angle 111 is pre-mapped to the timesegment 20:09. In some embodiments, the content application identifiesmultiple sets of the stored sets of video frames that are pre-mapped toa time segment. For example, the content application determines thatstored sets from both camera angles 111 and 113 are pre-mapped to timesegment 20:09.

At step 910, the content application causes the set of video frames tobe displayed in place of the currently streamed video frame or videoframes while continuing to stream the audio. For example, the contentapplication causes the set of stored video frames of camera angle 111 tobe displayed in place of the currently streamed video frame at cameraangle 114 that is affected by the reduction in streaming quality. If thestreamed video frames and audio are out of synchronization for longerthan the duration of the set of stored video frames, the contentapplication may cause the set of stored video frames to be repeated ordisplay another set of stored video frames that are pre-mapped to thecurrently streamed video frame. For example, if the streaming qualitycauses the audio and video frames to be out of synchronization for 3seconds, which is longer than the 2-second duration of the video framesof camera angle 111, the content application repeats the video frames ofcamera angle 111 until the streaming quality is sufficiently increased.In some embodiments, the content application identifies that both a setof video frames of camera angle 111 and a set of video frames of cameraangle 113 are pre-mapped to the currently streamed video frame. Thecontent application may choose to display the set of video frames with alonger duration in place of the currently streamed video frame. When thestreaming quality is unable to support synchronized video and audiostreaming, the content application may repeat the longer video frame setor play multiple pre-mapped sets of video frames in a decreasing orderof duration. For example, when sets of video frames of both cameraangles 111 and 113 are pre-mapped to time segment 20:09, the contentapplication chooses to display the 4-second-long set of video frames of113 first and the 2-second-long set of video frames of 111 afterward.Although not depicted, the content application may proceed after step910 to determine that the streaming quality has sufficiently increasedsuch that the synchronization between the streamed video frames andaudio can be maintained. After determining that the streaming qualityhas sufficiently increased, the content application may resume displayof the streamed video frames and audio. The content application maymonitor the streaming quality for stability before resuming display ofthe streamed video frames and audio. For example, the contentapplication determines that the streaming quality is sufficiently highfor a threshold amount of time before resuming display of the streamedvideo frames and audio.

The above-described embodiments of the present disclosure are presentedfor purposes of illustration and not of limitation, and the presentdisclosure is limited only by the claims that follow. Furthermore, itshould be noted that the features and limitations described in any oneembodiment may be applied to any other embodiment herein, and flowchartsor examples relating to one embodiment may be combined with any otherembodiment in a suitable manner, done in different orders, or done inparallel. In addition, the systems and methods described herein may beperformed in real time. It should also be noted, the systems and/ormethods described above may be applied to, or used in accordance with,other systems and/or methods.

1-18. (canceled)
 19. A method comprising: receiving a segment of acontent item for display; analyzing a quality of the segment;determining that the quality of the segment of the content item does notcomply with a predetermined standard; in response to determining thatthe quality of the segment of the content item does not comply with thepredetermined standard, comparing a currently streamed video frame ofthe content item to a previously stored video frame of the content item;determining a replacement portion based on the comparing; and replacinga portion of the segment with the replacement portion.
 20. The method ofclaim 19, further comprising: determining, using the control circuitry,that the previously stored video frame is similar to the currentlystreamed video frame; and determining that the similar previously storedvideo frame can be used in place of the currently streamed video frameas the replacement portion, wherein the similar previously stored videoframe shows scene continuity with the currently streamed video frame,and wherein the comparing the currently streamed video frame to thepreviously stored video frame comprises comparing a scene including thecurrently streamed video frame to a scene including the previouslystored video frame.
 21. The method of claim 19, wherein the replacingthe portion of the segment with the replacement portion comprisesreplacing a video frame affected by the non-compliant quality with thepreviously stored video frame.
 22. The method of claim 19, wherein thereplacing the portion of the segment with the replacement portioncomprises replacing a video frame with a previously stored video framewhile continuing to provide audio.
 23. The method of claim 19, whereinthe replacing the portion of the segment with the replacement portioncomprises replacing the currently streamed video frame with a similarvideo frame that occurred as long ago in time as possible relative tothe currently streamed video frame.
 24. The method of claim 19, whereinthe replacing the portion of the segment with the replacement portioncomprises replacing the segment of the content item with pre-curatedvideo frames.
 25. The method of claim 19, where the previously storedvideo frame has a second camera angle and the currently streamed videoframe has a first camera angle, wherein the first camera angle isdifferent than the second camera angle, and wherein the replacing theportion of the segment with the replacement portion comprises replacing,based on determining the previously stored video frame having the secondcamera angle is similar to the currently streamed video frame having thefirst camera angle, the currently streamed video frame having the firstcamera angle with the previously stored video frame having the secondcamera angle while continuing to provide audio.
 26. A system comprising:input circuitry configured to: receive a segment of a content item fordisplay; and control circuitry configured to: analyze a quality of thesegment; determine that a quality of the segment of the content itemdoes not comply with a predetermined standard; in response todetermining that the quality of the segment of the content item does notcomply with the predetermined standard, compare a currently streamedvideo frame of the content item to a previously stored video frame ofthe content item; determine a replacement portion based on thecomparing; and replace a portion of the segment with the replacementportion.
 27. The system of claim 26, the control circuitry furtherconfigured to: determine, using the control circuitry, that thepreviously stored video frame is similar to the currently streamed videoframe; and determine that the similar previously stored video frame canbe used in place of the currently streamed video frame as thereplacement portion, wherein the similar previously stored video frameshows scene continuity with the currently streamed video frame, andwherein the comparing the currently streamed video frame to thepreviously stored video frame comprises comparing a scene including thecurrently streamed video frame to a scene including the previouslystored video frame.
 28. The system of claim 26, wherein the replacingthe portion of the segment with the replacement portion comprisesreplacing a video frame affected by the non-compliant quality with thepreviously stored video frame.
 29. The system of claim 26, wherein thereplacing the portion of the segment with the replacement portioncomprises replacing a video frame with a previously stored video framewhile continuing to provide audio.
 30. The system of claim 26, whereinthe replacing the portion of the segment with the replacement portioncomprises replacing the currently streamed video frame with a similarvideo frame that occurred as long ago in time as possible relative tothe currently streamed video frame.
 31. The system of claim 26, whereinthe replacing the portion of the segment with the replacement portioncomprises replacing the segment of the content item with pre-curatedvideo frames.
 32. The system of claim 26, where the previously storedvideo frame has a second camera angle and the currently streamed videoframe has a first camera angle, wherein the first camera angle isdifferent than the second camera angle, and wherein the replacing theportion of the segment with the replacement portion comprises replacing,based on determining the previously stored video frame having the secondcamera angle is similar to the currently streamed video frame having thefirst camera angle, the currently streamed video frame having the firstcamera angle with the previously stored video frame having the secondcamera angle while continuing to provide audio.
 33. A non-transitorycomputer-readable medium having instructions encoded thereon that whenexecuted by control circuitry performs a method comprising: receiving asegment of a content item for display; analyzing a quality of thesegment; determining that the quality of the segment of the content itemdoes not comply with a predetermined standard; in response todetermining that the quality of the segment of the content item does notcomply with the predetermined standard, comparing a currently streamedvideo frame of the content item to a previously stored video frame ofthe content item; determining a replacement portion based on thecomparing; and replacing a portion of the segment with the replacementportion.
 34. The non-transitory computer-readable medium of claim 33,the method further comprising: determining, using the control circuitry,that the previously stored video frame is similar to the currentlystreamed video frame; and determining that the similar previously storedvideo frame can be used in place of the currently streamed video frameas the replacement portion, wherein the similar previously stored videoframe shows scene continuity with the currently streamed video frame,and wherein the comparing the currently streamed video frame to thepreviously stored video frame comprises comparing a scene including thecurrently streamed video frame to a scene including the previouslystored video frame.
 35. The non-transitory computer-readable medium ofclaim 33, wherein the replacing the portion of the segment with thereplacement portion comprises replacing a video frame affected by thenon-compliant quality with the previously stored video frame.
 36. Thenon-transitory computer-readable medium of claim 33, wherein thereplacing the portion of the segment with the replacement portioncomprises replacing a video frame with a previously stored video framewhile continuing to provide audio.
 37. The non-transitorycomputer-readable medium of claim 33, wherein the replacing the portionof the segment with the replacement portion comprises: replacing thecurrently streamed video frame with a similar video frame that occurredas long ago in time as possible relative to the currently streamed videoframe; or replacing the segment of the content item with pre-curatedvideo frames.
 38. The non-transitory computer-readable medium of claim33, where the previously stored video frame has a second camera angleand the currently streamed video frame has a first camera angle, whereinthe first camera angle is different than the second camera angle, andwherein the replacing the portion of the segment with the replacementportion comprises replacing, based on determining the previously storedvideo frame having the second camera